CN202995191U - Polarizing structure with touch control function - Google Patents

Abstract

The utility model provides a polarizing structure with a touch control function. The polarizing structure comprises a first polarizing film, a transparent substrate with an induction electrode layer, a first conductive adhesive layer and a first adhesive layer, one side of the first conductive adhesive layer is attached on the induction electrode layer while the other side thereof is attached to a flexible printed circuit, and the first adhesive layer is arranged between the first polarizing film and the transparent substrate to enable the first polarizing film to be attached to the transparent substrate. By applying the structure to a liquid crystal display module, process yield is improved, and effect of the touch control function is achieved.

Description

The structure of polarized light of tool touch controllable function

Technical field

The utility model is relevant for a kind of structure of polarized light, espespecially a kind of effect with touch controllable function, and the structure of polarized light that improves the tool touch controllable function of process rate.

Background technology

Recently, various flat display apparatus have been developed, for example liquid crystal display (LCD) device, Field Emission Display (FED), plasma display panel (PDP) and active display (LED).In the above-mentioned flat display apparatus of carrying, its liquid crystal display (LCD) device is widely used for example low energy consumption, thin external form and lightness because of its favourable characteristic.

View and admire for the user because known liquid crystal indicator only provides image frame, fail to provide the touch controllable function with user's interaction, so the dealer just develops a kind of embedded touch liquid crystal indicator.And this embedded touch liquid crystal indicator is in assembling process, be the touch-control sensing electrode member is integrated in display panel within, make display panel itself just possess touch controllable function.

though known embedded touch liquid crystal indicator can reach the effect of touch controllable function, but extend another problem, the display panel that is exactly known liquid crystal indicator is different from the processing procedure operation of the display panel of embedded touch liquid crystal indicator, the processing procedure operation is simplified so that both are known on processing procedure and can't reach by institute, and because the touch-control sensing electrode of embedded touch liquid crystal indicator is arranged in its display panel, so when display panel when manufacture process detects, if touch-control sensing electrode damage or loose contact detected, really be difficult to this touch-control sensing electrode is done and safeguard or change, make glass substrate and upper touch-control sensing electrode thereof in the display panel that need more renew, cause production cost to improve therefore make.

In addition, in manufacture process, because building bridge between the X-axis induction electrode of touch-control sensing electrode and Y-axis induction electrode, making needs multiple tracks processing procedure light shield, increases the processing procedure program so that cause due to the display panel of embedded touch liquid crystal indicator.

The above, known technology has following shortcoming:

1. process rate reduces;

2. cost improves;

3. process and the touch-control sensing electrode that can't simplify production and assembly are difficult for field-strip and maintenance work.

Therefore, how to solve above-mentioned public problem and disappearance, the inventor who is this case desires most ardently to the relevant manufacturer that is engaged in the industry the direction place that research improves.

The utility model content

For this reason, for effectively solving the above problems, fundamental purpose of the present utility model is providing a kind of structure of polarized light with the tool touch controllable function that reaches touch controllable function.

Another purpose of the present utility model is to provide a kind of structure of polarized light with the tool touch controllable function that improves process rate and reduce costs.

Another purpose of the present utility model is to provide a kind of structure of polarized light with tool touch controllable function of the process of simplifying production and assembly and convenient replacing or maintenance.

for reaching above-mentioned purpose, the utility model provides a kind of structure of polarized light of tool touch controllable function, comprise one first Polarizer, one transparency carrier, one first conductive adhesive layer and one first bonding coat, wherein this transparency carrier has an induction electrode layer, this induction electrode layer choosing is located on a side or opposite side of this transparency carrier, and a side of this first conductive substrate is attached on relatively described induction electrode layer, its opposite side is sticked mutually with an end of a flexible circuit board, make this flexible circuit board be electrically connected by this first conductive adhesive layer and induction electrode layer, and described the first bonding coat is arranged between this first Polarizer and relative transparency carrier, in order to the first Polarizer and transparency carrier are sticked mutually.

Particularly, the utility model provides a kind of structure of polarized light of tool touch controllable function, comprising:

One first Polarizer;

One transparency carrier has an induction electrode layer, and this induction electrode layer is selected to be located on a side or opposite side of this transparency carrier;

One first conductive adhesive layer, one side are attached at relatively on this induction electrode layer, and its opposite side is sticked mutually with an end of a flexible circuit board, makes this flexible circuit board by this first conductive adhesive layer and the electric connection of induction electrode layer; And

One first bonding coat is arranged between this first Polarizer and relative transparency carrier, in order to the first Polarizer and transparency carrier are sticked mutually.

Preferably, the structure of polarized light of described tool touch controllable function, described induction electrode layer has a plurality of the first induction electrodes and a plurality of the second induction electrode, described first and second induction electrode is crisscross arranged and is formed on a side of this transparency carrier, and it is insulated from each other, and an end of this induction electrode layer and upper flexible circuit board thereof binds with relative the first Polarizer mutually by this first bonding coat.

Preferably, the structure of polarized light of described tool touch controllable function, described induction electrode layer have a plurality of the first induction electrodes and a plurality of the second induction electrode, and described first and second induction electrode is crisscross arranged and is formed on the opposite side of this transparency carrier, and it is insulated from each other.

preferably, the structure of polarized light of described tool touch controllable function, described induction electrode layer has a plurality of the first induction electrodes and a plurality of the second induction electrode, described the first induction electrode is arranged on a side of this transparency carrier, one end of described the first induction electrode and upper flexible circuit board thereof binds with relative this first Polarizer mutually by this first bonding coat, described the second induction electrode is arranged on the opposite side of this transparency carrier, and which is provided with one second conductive adhesive layer, the other end of this flexible circuit board is electrically connected by this second conductive adhesive layer and described the second induction electrode.

Preferably, the structure of polarized light of described tool touch controllable function, the opposite side of described transparency carrier is sticked on a liquid crystal display module, this liquid crystal display module has a first substrate, a liquid crystal layer, a second substrate and one second Polarizer, this liquid crystal layer is folded between this first and second substrate, and this second Polarizer is sticked on a side of opposite this liquid crystal layer of this second substrate.

Preferably, be provided with one second bonding coat between the structure of polarized light of described tool touch controllable function, described transparency carrier and relative liquid crystal display module, this transparency carrier fits by this second bonding coat and liquid crystal display module, to consist of a touch control display apparatus.

Preferably, the structure of polarized light of described tool touch controllable function, the induction electrode laminating of described transparency carrier is located on a liquid crystal display module, this liquid crystal display module has a first substrate, a liquid crystal layer, a second substrate and one second Polarizer, this liquid crystal layer is folded between this first and second substrate, and this second Polarizer is sticked on a side of opposite this liquid crystal layer of this second substrate.

Preferably, the structure of polarized light of described tool touch controllable function, be provided with one second bonding coat between described induction electrode layer and relative liquid crystal display module, this induction electrode layer and upper flexible circuit board one end thereof fit by this second bonding coat and liquid crystal display module, to consist of a touch control display apparatus.

Preferably, the structure of polarized light of described tool touch controllable function, a plurality of second induction electrodes of described transparency carrier are sticked on a liquid crystal display module, this liquid crystal display module has a first substrate, a liquid crystal layer, a second substrate and one second Polarizer, this liquid crystal layer is folded between this first and second substrate, and this second Polarizer is sticked on a side of opposite this liquid crystal layer of this second substrate.

Preferably, the structure of polarized light of described tool touch controllable function, be provided with one second bonding coat between described the second induction electrode and relative liquid crystal display module, the other end of described the second induction electrode and upper flexible circuit board thereof fits by this second bonding coat and liquid crystal display module, to consist of a touch control display apparatus.

Preferably, the structure of polarized light of described tool touch controllable function, described first and second induction electrode are indium tin oxide or antimony tin oxide film.

Preferably, the structure of polarized light of described tool touch controllable function, described first and second bonding coat are optical cement or optical cement fat.

Preferably, the structure of polarized light of described tool touch controllable function, the material of described transparency carrier are wherein arbitrary material of polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate, cyclic olefine copolymer and glass.

By this first Polarizer and transparency carrier and on the design that combines of induction electrode layer, on Ying Yuyi liquid crystal display module, the effect that has touch controllable function so as to the liquid crystal display module is reached, and then also effectively improve process rate, simplify the process of production and assembly and be easy to the effect dismantling and change or keep in repair.

Description of drawings

Figure 1A is the decomposition diagrammatic cross-section of the first preferred embodiment of the present utility model;

Figure 1B is the combination diagrammatic cross-section of the first preferred embodiment of the present utility model;

Fig. 2 A is the decomposition diagrammatic cross-section of the second preferred embodiment of the present utility model;

Fig. 2 B is the combination diagrammatic cross-section of the second preferred embodiment of the present utility model;

Fig. 3 A is the decomposition diagrammatic cross-section of the 3rd preferred embodiment of the present utility model;

Fig. 3 B is the combination diagrammatic cross-section of the 3rd preferred embodiment of the present utility model;

Fig. 4 is the solid combination schematic diagram of structure of polarized light of the present utility model and liquid crystal display module;

Fig. 5 A is the decomposition diagrammatic cross-section of the 4th preferred embodiment of the present utility model;

Fig. 5 B is the combination diagrammatic cross-section of the 4th preferred embodiment of the present utility model;

Fig. 6 A is the decomposition diagrammatic cross-section of the 5th preferred embodiment of the present utility model;

Fig. 6 B is the combination diagrammatic cross-section of the 5th preferred embodiment of the present utility model;

Fig. 7 A is the decomposition diagrammatic cross-section of the 6th preferred embodiment of the present utility model;

Fig. 7 B is the combination diagrammatic cross-section of the 6th preferred embodiment of the present utility model.

The main element symbol description

Structure of polarized light ... 1

The first Polarizer ... 11

Transparency carrier ... 12

The induction electrode layer ... 121

The first induction electrode ... 1211

The second induction electrode ... 1212

The first conductive adhesive layer ... 13

The first bonding coat ... 15

Flexible circuit board ... 2

The second conductive adhesive layer ... 3

The liquid crystal display module ... 4

First substrate ... 41

Liquid crystal layer ... 42

Second substrate ... 43

The second Polarizer ... 44

The second bonding coat ... 5

Embodiment

Characteristic on above-mentioned purpose of the present utility model and structure thereof and function will be explained according to appended graphic preferred embodiment.

The utility model provides a kind of structure of polarized light of tool touch controllable function, sees also Figure 1A, Figure 1B shows, shows the combination of the first preferred embodiment of the present utility model and decomposes diagrammatic cross-section; This structure of polarized light 1 comprises one first Polarizer 11, a transparency carrier 12, one first conductive adhesive layer 13 and one first bonding coat 15, this first bonding coat 15 is optical cement (Optical Clear Adhesive, OCA), optical cement fat (OpticalClear Resin, OCR) or liquid optical cement (LAL), and described the first bonding coat 15 is arranged between this first Polarizer 11 and relative transparency carrier 12, in order to this first Polarizer 11 and transparency carrier 12 are sticked mutually.

One side of another described first Polarizer 11 opposite these transparency carriers 12 of person is used for the user and is carried out the touch-control action with finger or pointer.and the material of this transparency carrier 12 in this preferred embodiment with polyethylene terephthalate (Polyethylene Terephthalate, PET) material explains, but be not limited to this, when concrete enforcement, also may be selected to be glass, polycarbonate (Poly Carbonate, PC), tygon (polyethylene, PE), Polyvinylchloride (Poly Vinyl Chloride, PVC), polypropylene (PolyPropylene, PP), polystyrene (Poly Styrene, PS), polymethylmethacrylate (Polymethylmethacrylate, PMMA), cyclic olefine copolymer (cycloolefncoplymer, COC) arbitrary material wherein.

Moreover this transparency carrier 12 has an induction electrode layer 121, and this induction electrode layer 121 is selected to be located on a side or opposite side of this transparency carrier 12, explains on a side that is located at this transparency carrier 12 in the induction electrode layer 121 of this preferred embodiment; And this induction electrode layer 121 has a plurality of the first induction electrodes 1211 and a plurality of the second induction electrode 1212, described first and second induction electrode 1211,1212 is indium tin oxide (Indium Tin Oxide, ITO) or antimony tin oxide film (Antimony Tin Oxide, ATO).

And be formed on to be crisscross arranged on a side of this transparency carrier 12 in this first and second induction electrode 1211,1212 of this preferred embodiment, and its insulated from each other explaining, but be not limited to this; When concrete enforcement, the user can be according to the demand of touch-control sensing sensitivity and arrangement space, design changes described first and second induction electrode 1211,1212 correspond to each other and arrange and the shape aspect, and first and second induction electrode 1211,1212 corresponding settings are formed on a side of this transparency carrier 12 as described.

In addition, the mode that is formed in described first and second induction electrode 1211,1212 of this better enforcement on a side of this transparency carrier 12 explains in the mode of sputter, but is not limited to this, also can select to be coated with the mode of gel, plating or evaporation.

Continuous consult Figure 1A, Figure 1B shows, aforementioned the first conductive adhesive layer 13 explains in this better anisotropic conductive (Anisotropic Conductive Film is called for short ACF) that is embodied as, but is not limited to this; One side of this first conductive adhesive layer 13 is sticked on relative this induction electrode layer 121, and its opposite side is sticked mutually with an end of a flexible circuit board 2 (FPC), and this flexible circuit board 2 is electrically connected by this first conductive adhesive layer 13 and induction electrode layer 121.And an end of described induction electrode layer 121 and upper flexible circuit board 2 thereof binds with relative the first Polarizer 11 mutually by this first bonding coat 15.

So by the first Polarizer 11 of the present utility model and transparency carrier 12 and on the design that combines of induction electrode layer 121, make this structure of polarized light 1 reach the function with touch-control, and then the effect person of effective convenient replacing or maintenance also.

See also Fig. 2 A, Fig. 2 B shows, show this creation the second preferred embodiment combination and decompose diagrammatic cross-section; The structure of this this preferred embodiment and connection relationship and effect thereof are roughly identical with aforementioned the first preferred embodiment, therefore again do not give unnecessary details at this, this this preferred embodiment is mainly that a plurality of first and second induction electrodes 1211,1212 with aforementioned the first preferred embodiment change design and explain on the opposite side of described transparency carrier 12; That is described first and second induction electrode 1211,1212 is crisscross arranged and is formed on the opposite side of this transparency carrier 12, and it is insulated from each other.

One side of the another aforementioned transparency carrier 12 of person is binded with relative the first Polarizer 11 mutually by this first bonding coat 15.

See also Fig. 3 A, Fig. 3 B shows, show the combination of the 3rd preferred embodiment of the present utility model and decompose diagrammatic cross-section; The structure of this this preferred embodiment and connection relationship and effect thereof are roughly identical with aforementioned the first preferred embodiment, therefore again do not give unnecessary details at this, this this preferred embodiment is mainly that a plurality of first and second induction electrodes 1211,1212 with aforementioned the first preferred embodiment change design and explain on a side of described transparency carrier 12 and opposite side respectively; That is described the first induction electrode 1211 is arranged on a side of this transparency carrier 12, and an end of described the first induction electrode 1211 and upper flexible circuit board 2 thereof binds with relative the first Polarizer 11 mutually by described the first bonding coat 15.

Another 1212 of described the second induction electrodes of person are arranged on the opposite side of this transparency carrier 12, and which is provided with one second conductive adhesive layer 3, aforementioned the second conductive adhesive layer 3 and the first conductive adhesive layer 13 explain in this better anisotropic conductive (Anisotropic Conductive Film is called for short ACF) that is embodied as; And the other end of described flexible circuit board 2 is electrically connected by this second conductive adhesive layer 3 and described the second induction electrode 1212.

see also Fig. 5 A, Fig. 5 B shows, show the combination of the 4th preferred embodiment of the present utility model and decompose diagrammatic cross-section, and being aided with and consulting the 4th diagram, this this preferred embodiment is mainly that the structure of polarized light 1 with aforementioned the first preferred embodiment is applied on a liquid crystal display module 4, that is the opposite side of the transparency carrier 12 of aforementioned structure of polarized light 1 is sticked on relative this liquid crystal display module 4, and this liquid crystal display module 4 has a first substrate 41, one liquid crystal layer 42, one second substrate 43 and one second Polarizer 44, this liquid crystal layer 42 be folded in this first, two substrates 41, between 43, this second Polarizer 44 is sticked on a side of this second substrate 43 opposite these liquid crystal layers 42, and this second Polarizer 44 belows dispose a backlight module (not shown), this backlight module light source that this liquid crystal display module 4 is provided.Wherein aforementioned this first and second substrate 41,43 explains with glass substrate.

Be provided with one second bonding coat 5 between the another aforementioned transparency carrier 12 of person and relative liquid crystal display module 4, this second bonding coat 5 is identical with aforementioned the first bonding coat 15 is all optical cement (Optical ClearAdhesive, OCA), optical cement fat (Optical Clear Resin, OCR) or liquid optical cement (LAL); And the opposite side of described transparency carrier 12 fits by the first substrate 41 of the second bonding coat 5 with liquid crystal display module 4, with the liquid crystal display module 4 (being alleged touch control display apparatus) that consists of a tool touch controllable function.

So can being useful in the touch liquid crystal with touch controllable function, structure of polarized light 1 of the present utility model shows on module 4, as long as the upper Polarizer of original liquid crystal display module 4 is directly replaced with structure of polarized light 1 of the present utility model, can make liquid crystal display module 4 reach the effect with touch controllable function.In addition, the utility model is compared to known embedded touch liquid crystal indicator technology, the utility model can reach the process of simplifying production and assembly, as save multiple tracks processing procedure light shield program, and then also effectively improve process rate, relative reaches along with the process rate raising effect that reduces costs.

In addition, because induction electrode layer 121 of the present utility model is located on these transparency carrier 12 1 sides, so when manufacture process detects, if induction electrode layer 121 detected, damage or loose contact are arranged, can again more renew a modular structure of polarized light 1, or dismounting keeps in repair, and the substrate (being glass substrate) in the liquid crystal display module that need not more to renew, therefore be easy in order to do making effectively to reach the effect dismantling and change or keep in repair.

see also Fig. 6 A, Fig. 6 B shows, show the combination of the 5th preferred embodiment of the present utility model and decompose diagrammatic cross-section, and being aided with and consulting the 4th diagram, this this preferred embodiment is mainly that the structure of polarized light 1 with aforementioned the second preferred embodiment is applied on a liquid crystal display module 4, that is the induction electrode layer 121 of the transparency carrier 12 of aforementioned structure of polarized light 1 is sticked on relative this liquid crystal display module 4, and this liquid crystal display module 4 has a first substrate 41, one liquid crystal layer 42, one second substrate 43 and one second Polarizer 44, this liquid crystal layer 42 be folded in this first, two substrates 41, between 43, this second Polarizer 44 is sticked on a side of this second substrate 43 opposite these liquid crystal layers 42, and this second Polarizer 44 belows dispose a backlight module (not shown), this backlight module light source that this liquid crystal display module 4 is provided.Wherein aforementioned this first and second substrate 41,43 explains with glass substrate.

Be provided with one second bonding coat 5 between the induction electrode layer 121 of the another aforementioned transparency carrier 12 of person and relative liquid crystal display module 4, this second bonding coat 5 is identical with aforementioned the first bonding coat 15 is all optical cement (Optical Clear Adhesive, OCA), optical cement fat (Optical Clear Resin, OCR) or liquid optical cement (LAL); And described induction electrode layer 121 and upper flexible circuit board 2 one ends thereof fit by the first substrate 41 of the second bonding coat 5 with liquid crystal display module 4, with the liquid crystal display module 4 (being alleged touch control display apparatus) that consists of a tool touch controllable function.

So can being useful in the touch liquid crystal with touch controllable function, structure of polarized light 1 of the present utility model shows on module 4, as long as the upper Polarizer of original liquid crystal display module 4 is directly replaced with structure of polarized light 1 of the present utility model, can make liquid crystal display module 4 reach the effect with touch controllable function.In addition, the utility model is compared to known embedded touch liquid crystal indicator technology, the utility model can reach the process of simplifying production and assembly, as save multiple tracks processing procedure light shield program, and then also effectively improve process rate, relative reaches along with the process rate raising effect person who reduces costs.

In addition, because induction electrode layer 121 of the present utility model is located on the opposite side of this transparency carrier 12, so when manufacture process detects, if induction electrode layer 121 detected, damage or loose contact are arranged, can again more renew a modular structure of polarized light 1, or dismounting keeps in repair, and the substrate (being glass substrate) in the liquid crystal display module that need not more to renew, therefore be easy in order to do making effectively to reach the effect person that dismantles and change or keep in repair.

see also Fig. 7 A, Fig. 7 B shows, show the combination of the 6th preferred embodiment of the present utility model and decompose diagrammatic cross-section, and being aided with and consulting the 4th diagram, this this preferred embodiment is mainly that the structure of polarized light 1 with aforementioned the 3rd preferred embodiment is applied on a liquid crystal display module 4, that is a plurality of second induction electrodes 1212 of the transparency carrier 12 of aforementioned structure of polarized light 1 are sticked on relative this liquid crystal display module 4, and these liquid crystal display module 4 one first substrates 41, one liquid crystal layer 42, one second substrate 43 and one second Polarizer 44, this liquid crystal layer 42 be folded in this first, two substrates 41, between 43, this second Polarizer 44 is sticked on a side of this second substrate 43 opposite these liquid crystal layers 42, and this second Polarizer 44 belows dispose a backlight module (not shown), this backlight module light source that this liquid crystal display module 4 is provided.Wherein aforementioned this first and second substrate 41,43 explains with glass substrate.

Be provided with one second bonding coat 5 between another aforementioned a plurality of the second induction electrodes 1212 of person and relative liquid crystal display module 4, this second bonding coat 5 is identical with aforementioned the first bonding coat 15 is all optical cement (Optical ClearAdhesive, OCA), optical cement fat (Optical Clear Resin, OCR) or liquid optical cement (LAL); And the other end of described a plurality of the second induction electrode 1212 and upper flexible circuit board 2 thereof fits by the first substrate 41 of the second bonding coat 5 with liquid crystal display module 4, with the liquid crystal display module 4 (being alleged touch control display apparatus) that consists of a tool touch controllable function.

So can being useful in the touch liquid crystal with touch controllable function, structure of polarized light 1 of the present utility model shows on module 4, as long as the upper Polarizer of original liquid crystal display module 4 is directly replaced with structure of polarized light 1 of the present utility model, can make liquid crystal display module 4 reach the effect with touch controllable function.In addition, the utility model is compared to known embedded touch liquid crystal indicator technology, the utility model can reach the process of simplifying production and assembly, as save multiple tracks processing procedure light shield program, and then also effectively improve process rate, relative reaches along with the process rate raising effect that reduces costs.

In addition, because described first and second induction electrode 1211,1212 of the present utility model is located at respectively on a side and opposite side of this transparency carrier 12, so when manufacture process detects, if induction electrode layer 121 detected, damage or loose contact are arranged, can again more renew a modular structure of polarized light 1, or dismounting keeps in repair, and the substrate (being glass substrate) in the liquid crystal display module that need not more to renew, therefore be easy in order to do making effectively to reach the effect dismantling and change or keep in repair.

The above, the utility model has advantages of following compared to known technology:

1. structure of polarized light of the present utility model can be useful on the touch liquid crystal demonstration module with touch controllable function, can make the liquid crystal display module reach the effect with touch controllable function;

2. simplify the process of production and assembly and improve process rate;

3. reduce costs.

The above is only better feasible embodiment of the present utility model, and all variations that utilizes the above-mentioned method of the utility model, shape, structure, device to do all should be contained in the interest field of this case.

Claims (13)

1. the structure of polarized light of a tool touch controllable function, is characterized in that, comprising:

One first Polarizer;

One transparency carrier has an induction electrode layer, and this induction electrode layer is selected to be located on a side or opposite side of this transparency carrier;

One first conductive adhesive layer, one side are attached at relatively on this induction electrode layer, and its opposite side is sticked mutually with an end of a flexible circuit board, makes this flexible circuit board by this first conductive adhesive layer and the electric connection of induction electrode layer; And

One first bonding coat is arranged between this first Polarizer and relative transparency carrier, in order to the first Polarizer and transparency carrier are sticked mutually.

2. the structure of polarized light of tool touch controllable function as claimed in claim 1, it is characterized in that, described induction electrode layer has a plurality of the first induction electrodes and a plurality of the second induction electrode, described first and second induction electrode is crisscross arranged and is formed on a side of this transparency carrier, and it is insulated from each other, and an end of this induction electrode layer and upper flexible circuit board thereof binds with relative the first Polarizer mutually by this first bonding coat.

3. the structure of polarized light of tool touch controllable function as claimed in claim 1, it is characterized in that, described induction electrode layer has a plurality of the first induction electrodes and a plurality of the second induction electrode, and described first and second induction electrode is crisscross arranged and is formed on the opposite side of this transparency carrier, and it is insulated from each other.

4. the structure of polarized light of tool touch controllable function as claimed in claim 1, it is characterized in that, described induction electrode layer has a plurality of the first induction electrodes and a plurality of the second induction electrode, described the first induction electrode is arranged on a side of this transparency carrier, one end of described the first induction electrode and upper flexible circuit board thereof binds with relative this first Polarizer mutually by this first bonding coat, described the second induction electrode is arranged on the opposite side of this transparency carrier, and which is provided with one second conductive adhesive layer, the other end of this flexible circuit board is electrically connected by this second conductive adhesive layer and described the second induction electrode.

5. the structure of polarized light of tool touch controllable function as claimed in claim 2, it is characterized in that, the opposite side of described transparency carrier is sticked on a liquid crystal display module, this liquid crystal display module has a first substrate, a liquid crystal layer, a second substrate and one second Polarizer, this liquid crystal layer is folded between this first and second substrate, and this second Polarizer is sticked on a side of opposite this liquid crystal layer of this second substrate.

6. the structure of polarized light of tool touch controllable function as claimed in claim 5, it is characterized in that, be provided with one second bonding coat between described transparency carrier and relative liquid crystal display module, this transparency carrier fits by this second bonding coat and liquid crystal display module, to consist of a touch control display apparatus.

7. the structure of polarized light of tool touch controllable function as claimed in claim 3, it is characterized in that, the induction electrode laminating of described transparency carrier is located on a liquid crystal display module, this liquid crystal display module has a first substrate, a liquid crystal layer, a second substrate and one second Polarizer, this liquid crystal layer is folded between this first and second substrate, and this second Polarizer is sticked on a side of opposite this liquid crystal layer of this second substrate.

8. the structure of polarized light of tool touch controllable function as claimed in claim 7, it is characterized in that, be provided with one second bonding coat between described induction electrode layer and relative liquid crystal display module, this induction electrode layer and upper flexible circuit board one end thereof fit by this second bonding coat and liquid crystal display module, to consist of a touch control display apparatus.

9. the structure of polarized light of tool touch controllable function as claimed in claim 4, it is characterized in that, a plurality of second induction electrodes of described transparency carrier are sticked on a liquid crystal display module, this liquid crystal display module has a first substrate, a liquid crystal layer, a second substrate and one second Polarizer, this liquid crystal layer is folded between this first and second substrate, and this second Polarizer is sticked on a side of opposite this liquid crystal layer of this second substrate.

10. the structure of polarized light of tool touch controllable function as claimed in claim 9, it is characterized in that, be provided with one second bonding coat between described the second induction electrode and relative liquid crystal display module, the other end of described the second induction electrode and upper flexible circuit board thereof fits by this second bonding coat and liquid crystal display module, to consist of a touch control display apparatus.

11. the structure of polarized light as claim 2 or 3 or 4 described tool touch controllable functions is characterized in that, described first and second induction electrode is indium tin oxide or antimony tin oxide film.

12. the structure of polarized light as claim 6 or 8 or 10 described tool touch controllable functions is characterized in that, described first and second bonding coat is optical cement or optical cement fat.

13. the structure of polarized light of tool touch controllable function as claimed in claim 1, it is characterized in that, the material of described transparency carrier is wherein arbitrary material of polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate, cyclic olefine copolymer and glass.

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